PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
1997 | 44 | 4 |

Tytuł artykułu

Primary structure of porcine spleen ribonuclease: sequence homology

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
The primary structure of porcine spleen RNase (RNase Psp1) was investigated as a mean of assessing the structure-function relationship of base non-specific ribonucleases of animal origin. N-terminal analysis of RNase Psp1 yielded three N-terminal sequences. These peptides were separated by gel-filtration on Superdex 75HR, after reduction and S-carboxymethylation of RNase Psp1. Determination of the amino-acid sequence of these peptides indicated that the RNase Psp1 preparation consisted of three peptides having 20 (RCM RNase Psp1 pep1), 15 (RCM RNase Psp1 pep2), and 164 (RCM RNase Psp1 pro) amino-acid residues, respectively. It possessed two unique segments containing most of the active site amino-acid residues of the RNases of the RNase T2 family. The alignment of these three peptides in RNase Psp1 was determined by comparison with the other enzymes in the RNase T2 family. The overall results showed that RCM RNase Psp1 pep1 and RCM RNase Psp1 pep2 are derived from the N-terminal and C-terminal regions of RNase Psp1, respectively, probably by processing by some protease. The molecular mass of the protein moiety of RNase Psp1 was 23235 Da.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

44

Numer

4

Opis fizyczny

p.689-699,fig.

Twórcy

autor
  • Toho University Ohashi, 20-17-6, Meguro 153, Japan
autor
autor
autor
autor
autor
autor
autor
autor

Bibliografia

  • 1. Bernardi, A. & Bernardi, G. (1966) Studies on acid hydrolases. III. The isolation and propertics of spleen acid ribonuclease. Biochim. Bio- phys. Acta 129, 23-31.
  • 2. Maever, M.E. & Greco, A.E. (1952) The chro­matographic separation and characterization of the acid and an alkaline ribonuclease of bovine spleen and liver. J. Biol. Chem. 237, 736-741.
  • 3. Delaney, R. (1963) Chemical, physical, enzy­matic properties of several human ribonu- cleases. Biochemistry 2, 438-444.
  • 4. Ohgi, K., Sanda, A., Takizawa, Y. & Irie, M. (1988) Purification of acid ribonuclease from bovine spleen. J. Biochem. 103, 267-273.
  • 5. Narumi, H., Ogawa, Y., Iwama, M.. Kusano, A., Sanda. A., Ohgi, K. & Irie, M. (1997) Bovine spleen acid ribonuclease is a member of the RNase T2 family. J. Biochem Mol. Biophys. 1, 21-26.
  • 6. Irie. M. (1997) RNase T1/RNase T2 family RNases; in Rihonucleases (D'Alessio, G. & Riordan, J.F., eds.) pp. 101-130, Academic Press, New York.
  • 7. Laemmli, U.K.U970) Cleavage of structural proteins during the assembly of the bacterio­phage T. Nature 227, 680-685.
  • 8. Pajot, P. (1986) Fluorecence of protein in 5 M guanidine Hydrochloride. Eur. J. Biochem. 63. 263-269.
  • 9. Crestfield, A., Moore, S. & Stein, W. (1963) The preparation and enzymatic hydrolysis of reduced and S-carboxymethylated protein. J. Biol. Chem. 238, 622-627.
  • 10. Butler, P.J.G., Harries, J.L. & Hartley, B.S. & Leberman, R. (1969) The use of maleic anhydride for the reversible blocking of amino groups in polypeptide chains. Biochem. J. 112, 629-689.
  • 11. Watanabe, H., Narumi, H., lnaba,T., Ohgi, K. & Irie, M. (1993) Purification, some proper­ties, and primary structure of a base non-spe­cific ribonuclease from oyster (Crassostrea gi- gas). J. Biochem. 114, 800-807.
  • 12. Hime, G., Prior, L. & Saint, R. (1995) The Drosophila melanogaster genome contains a member of the Rh/S-glycoprotein family of ribonuclease-encoding genes. Gene 158, 203- 207.
  • 13. Uchida, T., Hayano, K., Iwama, M., Watan­abe, H., Sanda, A., Ohgi, K. & Irie, M. (1996) Base specificity and primary structure of so- called poly U preferential ribonuclease from chicken liver. Biosci. Biotech. Biochem. 60. 1982- 1988.
  • 14. Inokuchi, N., Kobayashi, H., Miyamoto, N., Koyama, T., Iwama, M., Ohgi, K. & Irie. M. (1997) Primary structure of base non-specific and acid ribonuclease from bullfrog (Rana catesbeiana). Biol. Pharm. Bull. 20, 471-478.
  • 15. Inokuchi, N., Koyama, T., Sawada, F. & Irie. M. (1993) Purification, some properties and primary structure of base non-specific ribonu­clease from Physarum polycephalum. J. Bio­chem. 113, 425-432.
  • 16. MaClure, B.A., Haring, V., Evert. P.R., An­derson, M.A., Simpson. R.J., Sakiyama, F. & Clarke, A.E. (1989) Style self-incompatibility gene products of Nicotiana alota as ribonu­clease. Nature 342, 955 -958.
  • 17. Ai. Y.. Singh, A., Coleman. C.E., Ioerger, T.R., Kheyer-Pour, A. & Kao, T.-H. (1990) Self in­compatibility in Petunia inflata. Isolation and charcterization of DNAs encoding three S-al- lele associated proteins. Sex Plant Reprod. 3, 130-138.
  • 18. Jost, W.. Bak, H., Glund, K.. Terpstra, P. & Beintema, J.J. (1991) Amino acid sequence of an extra-cellular phosphate starvation in­duced ribonuclease from cultured tomato, (Lycopersicon esculentum). Eur. J. Biochem. 198, 1-6.
  • 19. Ide, H., Kimura, M., Arai, M. & Funatsu, G. (1991) The complete amino acid sequence of ribonucleae from the seeds of bitter gourd (Momordica charantia). FEBS Utt. 284, 161-164.
  • 20. Richards, F.M. & Wychoff, H.W. (1971) Bo­vine pancreatic ribonuclease; in The Enzymes (Boyer, P.D., ed.) vol. 4, 3rd ed., pp. 646-806, Academic Press, New York.
  • 21. Hayano, K., Iwama, M., Sakamoto, H.. Watanabe, H., Sanda, A., Ohgi, K. & Irie, M. (1993) Characterization of poly C preferential rihonucleases from chicken liver. J. Biochem. 114, 156-162.
  • 22. Nitta, R.. Katayama, N., Okabe, Y.f Iwama, M.. Watanabe, H., Abe, Y., Okazaki, T., Ohgi, K. & Irie, M. (1989) Primary structure of a ribonuclease from bullfrog (Rana cates- beiana). J. Biochem. 106, 729-735.
  • 23. Titani, K., Takio, K., Kuwada, M., Nitta, K., Sakakibara, F., Kawauchi, H., Takayanagi, G., Hakomori, S. (1988) Amino acid sequence of sialic acid binding Icctin from frog (Rnna eatesbeiana). Biochemistry 26, 2189-2194.
  • 24. Meador, J., III. & Kennel, D. (1990) Cloning and sequencing the gene encoding Es­cherichia coli ribonuclease I: Exact physical mapping using genome library. Gene 95, 1-7.
  • 25. Favre, D„ Philip, K. & Timmis, K.N. (1993) Relatedness of a periplasma, broad-specificity RNase from Aeromonas hydrophila to RNase 1 of Escherichia coli and to a family of eukaryotic RNases. J. Bacteriol. 175. 3710- 3722.
  • 26. de Duve, C., Pressman, B.C., Gianetto, R., Wattiaux, R. & Appelman, F. (1955) Tissue fractionation studies. 6. Intracellular distri­bution patterns of enzymes in rat liver tissue. Biochem. J. 60, 604-617.
  • 27. Rahman, Y.E., Howe, J.F., Nance, S.L. & Thomas, J.F. (1967) Studies on rat liver ri- bonuclese. II. Zonal centrifugation of acid ri­bonuclease; Implication for the heterogeneity of lysosome. Biochim. Biophys. Acta 146, 484-492.
  • 28. Rahman, Y.E. & Ccrny, E.A. (1969) Studies on rat liver ribonucleases. III. Further studies on heterogeneity of liver lysosomes. Intracel­lular localization of acid ribonuclease and acid phosphatase in rats of various age. Biochim. Biophys. Acta 178, 61-67.
  • 29. Baudhuin, P., Pctcrs-Joris. C. & Bartholeyns, J. (1975) Hepatic nucleases. 2. Association of polyadenylase, alkaline ribonuclease and de- oxyribonuclease with rat-liver mitochondria. Eur. J. Biochem. 57, 213-220.
  • 30. Futai, M., Miyata, S. & Mizuno, D. (1969) Acid ribonuclease of lysosomal and soluble frac­tions from rat liver. J. Biol. Cnem. 244,4951- 4960.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.agro-article-95e86f41-5e41-4dbd-a6c0-b12e2555c64f
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.